Haixing Guan scite author profile

A unique nickel/organic photoredox co‐catalyzed asymmetric reductive cross‐coupling between α‐chloro esters and aryl iodides is developed. This cross‐electrophile coupling reaction employs an organic reductant (Hantzsch ester), whereas most reductive cross‐coupling reactions use stoichiometric metals. A diverse array of valuable α‐aryl esters is formed under these conditions with high enantioselectivities (up to 94 %) and good yields (up to 88 %). α‐Aryl esters represent an important family of nonsteroidal anti‐inflammatory drugs. This novel synergistic strategy expands the scope of Ni‐catalyzed reductive asymmetric cross‐coupling reactions.

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Synthesis of Indoles through Domino Reactions of 2‐Fluorotoluenes and Nitriles

Mao

Wang

et al. 2019

Angew Chem Int Ed

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Indoles are essential heterocycles in medicinal chemistry,a nd therefore,n ovel and efficient approaches to their synthesis are in high demand. Among indoles,2 -aryl indoles have been described as privileged scaffolds.Advanced herein is astraightforward, practical, and transition-metal-free assembly of 2-aryl indoles.Simply combining readily available 2-fluorotoluenes,n itriles,L iN(SiMe 3 ) 2 ,a nd CsF enables the generation of adiverse arrayofindoles (38 examples,48-92 % yield). Ar ange of substituents can be introduced into each position of the indole backbone (C4 to C7, and aryl groups at C2), providing handles for further elaboration. Scheme 1. Transition-metal-free synthesis of indoles.

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Catalytic enantioselective reductive domino alkyl arylation of acrylates via nickel/photoredox catalysis

et al. 2021

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Nonsteroidal anti-inflammatory drug derivatives (NSAIDs) are an important class of medications. Here we show a visible-light-promoted photoredox/nickel catalyzed approach to construct enantioenriched NSAIDs via a three-component alkyl arylation of acrylates. This reductive cross-electrophile coupling avoids preformed organometallic reagents and replaces stoichiometric metal reductants by an organic reductant (Hantzsch ester). A broad range of functional groups are well-tolerated under mild conditions with high enantioselectivities (up to 93% ee) and good yields (up to 90%). A study of the reaction mechanism, as well as literature precedence, enabled a working reaction mechanism to be presented. Key steps include a reduction of the alkyl bromide to the radical, Giese addition of the alkyl radical to the acrylate and capture of the α-carbonyl radical by the enantioenriched nickel catalyst. Reductive elimination from the proposed Ni(III) intermediate generates the product and forms Ni(I).

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Nickel-catalyzed reductive coupling of homoenolates and their higher homologues with unactivated alkyl bromides

Lin

Qian

et al. 2020

Nat Commun

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The catalytic generation of homoenolates and their higher homologues has been a long-standing challenge. Like the generation of transition metal enolates, which have been used to great affect in synthesis and medicinal chemistries, homoenolates and their higher homologues have much potential, albeit largely unrealized. Herein, a nickel-catalyzed generation of homoenolates, and their higher homologues, via decarbonylation of readily available cyclic anhydrides has been developed. The utility of nickel-bound homoenolates and their higher homologues is demonstrated by cross-coupling with unactivated alkyl bromides, generating a diverse array of aliphatic acids. A broad range of functional groups is tolerated. Preliminary mechanistic studies demonstrate that: (1) oxidative addition of anhydrides by the catalyst is faster than oxidative addition of alkyl bromides; (2) nickel bound metallocycles are involved in this transformation and (3) the catalyst undergoes a single electron transfer (SET) process with the alkyl bromide.

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Haixing Guan

Nickel/Photoredox‐Catalyzed Asymmetric Reductive Cross‐Coupling of Racemic α‐Chloro Esters with Aryl Iodides

Synthesis of Indoles through Domino Reactions of 2‐Fluorotoluenes and Nitriles

Catalytic enantioselective reductive domino alkyl arylation of acrylates via nickel/photoredox catalysis

Nickel-catalyzed reductive coupling of homoenolates and their higher homologues with unactivated alkyl bromides

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